144 research outputs found
Armorican Arrowheads Biographies : Production and Function of an Early Bronze Age prestige good from Brittany (France)
Brittany can pride itself on the Armorican arrowheads found in Early Bronze Age graves (2150-1700 BC). In the present state of knowledge, these are the only specialized craft products in knapped
flint produced in this region at the western edge of continental Europe. Admired since the 19th
century, these flint arrowheads have never really been studied. Due to the wealth of graves and gravegoods, a relatively precise study can be undertaken of the development of these craft products, despite
the low number of reliable radiocarbon dates.
These arrowheads are characterized by a well-defined type (pointed tang and oblique barbs) most
often combined with ogival form. Raw materials show the selection of a high quality yellow
translucent flint, of which the origin has to be sought at more than 400 kilometers (Lower Turonian
flint from Cher Valley). From a technical point of view, Armorican arrowheads reveal a great mastery
of retouch by pressure-flaking. This skill is written in stone by the perfection of forms, the extreme
thinness (until 2,5 mm thick) and very long barbs (until 25 mm long). Such work could not have been
done without the use of copper, even bronze, awls. Moreover, some marks may testify to the
implication of these tools. On 549 arrowheads that have reached to us, none of them presents
diagnostical impact features. However, use-wear analysis indicates that most of them were hafted
(adhesive traces, bright spots, blunt edges). These facts suggest that they are less functional
arrowheads than objects for the show. In the graves, Armorican arrowheads are frequently set down
carefully in wooden boxes taking the shaft off.
The Armorican arrowheads with their exotic raw materials, their high-degree of technicality, and
their absence of use, have all features of a prestige good. They have been discovered by dozens in few
graves under barrows with very rich funeral items (bronze daggers decorated with golden pins,
precious bracers, silver beakers, etc.). According to these obvious facts, they symbolize the power of
the elites. The genesis of Armorican arrowheads are in all likelihood explained by a climate of
increasing social competition, which express itself in Brittany by an individualization of burial rites, a
development of metalworking and a reorganization of territories.
In this article, we will stress on raw materials selection, technology and know-how, as well as
use-wear analyses. All these approaches will help us to trace the biographies of the Armorican
arrowheads
Quality Assessment of Linked Datasets using Probabilistic Approximation
With the increasing application of Linked Open Data, assessing the quality of
datasets by computing quality metrics becomes an issue of crucial importance.
For large and evolving datasets, an exact, deterministic computation of the
quality metrics is too time consuming or expensive. We employ probabilistic
techniques such as Reservoir Sampling, Bloom Filters and Clustering Coefficient
estimation for implementing a broad set of data quality metrics in an
approximate but sufficiently accurate way. Our implementation is integrated in
the comprehensive data quality assessment framework Luzzu. We evaluated its
performance and accuracy on Linked Open Datasets of broad relevance.Comment: 15 pages, 2 figures, To appear in ESWC 2015 proceeding
Combinatorial optimization in production and logistics systems
avec FIInternational audienc
A comparative study of charging assumptions in electric vehicle routing problems
International audienceElectric vehicle routing problems (eVRPs) extend classical routing problems to consider the limited driving range of electric vehicles. In general, this limitation is overcome by introducing planned detours to battery charging stations. Most existing eVRP models rely on one (or both) of the following assumptions: (i) the vehicles fully charge their batteries every time they reach a charging station, and (ii) the battery charge level is a linear function of the charging time. In practical situations, however, the amount of charge is a decision variable, and the battery charge level is a concave function of the charging time. In this research we extend current eVRP models to consider partial charging and nonlinear charging functions. We present a computational study comparing our assumptions with those commonly made in the literature. Our results suggest that neglecting partial and nonlinear charging may lead to infeasible or overly expensive solutions
A parallel matheuristic for the technician routing problem with electric and conventional vehicles
The technician routing problem with conventional and electric vehicles (TRP-CEV) consists in designing service routes taking into account the customersâ time windows and the techniciansâ skills, shifts, and lunch breaks. In the TRP-CEV routes are covered using a fixed and heterogeneous fleet of conventional and electric vehicles (EVs). Due to their relatively limited driving ranges, EVs may need to include in their routes one or more recharging stops. In this talk we present a parallel matheuristic for the TRP-CEV. The approach works in two phases. In the first phase it decomposes the problem into a number of âeasier to solveâ vehicle routing problems with time windows and solves these problems in parallel using a GRASP. During the execution of this phase, the routes making up the local optima are stored in a long-term memory. In the second phase, the approach uses the routes stored in the long-term memory to assemble a solution to the TRP-CEV. We discuss computational experiments carried on real-world TRP-CEV instances provided by a French public utility and instances for the closely-related electric fleet size and mix vehicle routing problem with time windows and recharging stations taken from the literature.
A fast Reoptimization approach for the dynamic technician routing and scheduling problem
The Technician Routing and Scheduling Problem (TRSP) consists in routing staff to serve requests for service, taking into account time windows, skills, tools, and spare parts. Typical applications include maintenance operations and staff routing in telecoms, public utilities, and in the health care industry. In this paper we tackle the Dynamic TRSP (D-TRSP) in which new requests appear over time. We propose a fast reoptimization approach based on a parallel Adaptive Large Neighborhood Search (RpALNS) able to achieve state-of-the-art results on the Dynamic Vehicle Routing Problem with Time Windows. In addition, we solve a set of randomly generated D-TRSP instances and discuss the potential gains with respect to a heuristic modeling a human dispatcher solution
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